System of control for electric motors.



No. meest.

Liatented April 4;, i905.,

ARTHUR C. EASTiVOOi/i, OF UL VEL AND, O H10.

SYSTEM OF GONTRE.. FR ELECTFlC l'vt'ffiRS..

` SPECIFICATION forming part of Letters .Patent No. 786,535, dated April 4, 1905.

Application filed March 21,1904. Serial No. 199.127.

Be it known that l, An'runu C. EAsrwooD, a citizen ot' the United States, and a resident ot Cleveland, county ot' Cuyahoga, and State ol Ohio, have invented a new and use-'ful 'improvement in Systems of Control for Electric Motors, of which the following is aspeciiicaticn, the principle oi the invention being herein explained and the best mode in which l have contemplated applying that principle, so as to distinguish it 'from other inventions4 My invention relates to improvements in systems for the control of electric i'notors, it being` particularly adapted to motors which must be frequently reversed.

The object of my invention is to produce a system whereby such motor may be reversed as rapidly as is consistent with its capacit and with the strength of the gearing and other parts of the machine to which it attached and at the same time absorb a minimum power from the source of power-su ppl y. Reversible motors have been applied to certain classes ot service in which such reversal was required to be frequent and rapid. lieretoiore, however, service of this nature has been found to be very severe on both the driving-motor and the driven machinery, and this has been tound to have been due to the heavy current and consequent abnormal strains upon the parts set up at the instant ot' reversal. ln connection with service ot this class may be mentioned reversing roller-tables commonly used in iron and steel mills for conveying ingots, billets, or blooms and entering them in the rolls, also certain reciprocating' metalworking urachines, such as planers, which may be reciprocated by reversing the driving-motor.

The problem ot' reversing an electrical motor, together with the machinery or parts to which it is attached, may be resolved into two partsA first, that which involves the absorption and dissipation of the energy contained in the armature oi the motor and other moving parts connected therewith while in motion; second, the acceleration ot' the mass consisting et the armature and other moving parts in the reverse direction. in controlling systems heretofore used no provision is made tor providing 'for the tirst part ot the problem, the result boing l i l l l l l i i i l l l 1 l l l l that when the direction ol the [low of current through one ot' the elements ot' the motor (either armature or tield) is suddenly reversed current must be drawn from the line, lirst, to overcome the Ytoi-ward motion oi the armature and the attached load, and, second, to accelerato these parts in the reverse direction. At the instant following the reversal the counter electroniotive Ytorce generated by the armature ol the motor during the continuation oi this forward rotation is in the same direction as that of the needy-applied electromotive torce, and the instantaneous voltage tend ing to ltorce current through the windings ot the motor may, therefore, be almost double that o: the line, and il the resistance connected with the controller be too suddenly eut out the rush et current will be enormous, as the inotor at this instant instead oi" tending to reduce the `flow ol current by generating an opposing electromotive 'torce actually tends to increase thc 'liow ol current by generating' an assisting eieetromotive torce.

By means ol my invention, however, the armature oil the motor and its connected moving parts are automatically and quickly brought to rest with the armature disconneeted from the line before current can be applied to the motor Ifor actuating it in the reverse direction. '.ihe current which will liow through the motor when thus reversed becomes greatly reduced, and the mechanical strain on all the parts of the machine is correspondingly reduced.

.in connection with my invention as above outlined l also provide means which prevent the controlling resistance Vfrom being too rapidly cut out, thereby still Vfurther reducing the current drawn from the line during the acceleration the velocity ot' the armature and load in the reverse direction.

The annexed drawings and the following description set ferte in detail certain nicchanism embodying my invention, the disclosed means, however, con: t

ituting but one oi the varionstorms in which the principle ot my invention may be used.

.in said annexed drawings, Figure l represents a diagrauumitic view oi' au apparatus iilustrating the principle of my invention in- LII 'relying' the method of acceleration of the inoand connected parts, certain parts and elements which are used in the actual application oi my invention being' omitted in order to simplify the explanation of the said principle. FigD represents a diagrammatic View oi' an apparatus embodying,l my invention as particul `rly applied to a shunt-wound motor adapted to operate at its full or a constant speed. Fig'. represents a similar diagramn'iatic View oi an apparatus embodying my invention as particularly applied. to a compound-wound mot-or adapted to run at its full or constant speed only. Fig. it represents a diagrammatic View ot' an apparatus enihfjidying my invention as particularly applied to a series-wound motor having` Various speeds. 5 represents a detail perspective View oi two rnacnetically-operated switcharnis and a locking-har in connection therewith.

iho elements comprising' the apparatus diagrammatically illustrated is embodying invention consist or" a source ot' current s ply; a motor to be controlled; an operatinb'- controller comprising a i Yr/'ersi'n g-switch for rerersingl the direction ol: the current through one element of the motor; a plurality ol2 niagnetically-operated switches for controlling the starting` resistance; a magneticallyoperated short-circuitingswitch; an auxiliary circuit including' said latter-named switch, together with a resistance, such circuit ar- ,i 'ed to short-circuiiy the armature; a magnetically-operated switch in the main inotorcircuit which eigens and closes one el the main lines ot curient-supply to the motor; an interlochiiig' device arranged between the main and short-circuiting' switches in a manner such that one must alwars open before the other can close; a benl( el' starting resistance in the main motor-circuit, and connections hetween the operating-controller, the bank oi starting resistance, and the excitingcoils ot' the inirgnetically-operating' resistance-switches arranged in such a manner that the latter must close in a predetermined order, so that the time of their closingI will depend upon the amount ol current l'iowinpl through said resistance.

i shall now proceed to describe in detail the construction and operation of the mechanism illustrated by Fig. 2. in said ligure, A represents the armature 'ot the motor, and ad /zfthe brushes thereof. il represents a controller having two sets ot segments, right hand and a le'thand, each set embodying' lire segments c cA3 c" c* c", the lowermost, c5, ot' each set being' shorter than the other `tour, which are of equal length, shown. Segments c c oi the lett-hand set oi' segments are connected, as shown, and segments c2 cl cr are connected with each other, as shown. Ol' the right-hand set oli segments c/ c" are connected, and tf c" c" are connected, as shown. ,intermediate these two sets ot' segments are live contact-lingers d ci ts il ufl, arranged so as to he brought respectively into contact with the segments ol the controller on the left or right, as will he readily understood. Contact-linger if is connected with one of the hrushcs, el, and contact-linger it is connected 'with the other ol said brushes, c". Contactdinger o is connected with negative main L, and linger ci connected, as shown, with the positive main L. This latter connection includes a inagnetic coil m, which actuates a movable core m', connected with a switch-arm*1f/fol a switch M. This switch-arm i. also pro'ii'ided with a retractile spring, as indicated, to ellect a normal or open position ther eel", is connected with the positive main ol the line, and is adapted to engage a contact m. This lutter Contact is connected with a haul; el resist-ance it, the opposite end oll which is connected with the contact-linger u', as show'n. .fr series of magnetically-operatc switches il', il, and iil have their coils arr mcd in parallel, as shown, one end et' thc coils being' corniectcd with the negatiif'e main, shown, and the opposite end being connected with thc contactiinger d' at a point intermediate ol the latter or the motor and the resist-'anco il. ',llhc switcharms of these switches are respectively adapted to engage contacts ,v/ s a, and these contacts arc connected with the ends ol' the rosistance and at intermediate points, as shown. Contacts is connected beyond the right-hand end oli' the resistance. ilhort-circuiting' the brushes a f.' ot the motor is a seconiflary circuit includi. resistance lt, a magneticallyope d switch Vhl, including' an arm ny and contact n'. Connecting' ono olE the said brushes d with the contact n is a ':onductor includingl the coil nf", which controls the operation oi" the switch-arm n.. lt will therel'orc he that when the said arm is mused to engage the contact n the armature will be shortcircuited through the resistance it. The [leid-winding' il ol the motor is connected, as shown, in the usual manner.

in the mechanisni above described the two inagnetically-operated switches M and ll are placed in juxtaposition, and an arm is provided and arranged seas to loch the oneswilcharm against closure, while the other is closed, so that hut one arm may assume iis closing' position at any one time and so that the opening operation oli either arni will permit a concurrent closing; operation olE the other.

The switches El' l5 Si, previously described., are designed and arranged to operate in :iceordance with the amount oi" current liowino' through the resistance fli. 'ihe manner ol arranging` theparts te ellcct such result is :if lollows, the ligures introduced in thcoxplanation being' merely hypothetical and such as will render such explanation simple in character. itclferringnowto llin'. l,le it heassuinedthatthe ains he two hundred L d A t ifoltuge el the supnlg, -ni

los

and ten and let the fractional portions ot the resistance R, which are determined by the connections with the contacts s si s3, be designated by RR2 l Let it be further assumed that the resistances of R' R2 R3 are respectively one ohm each, R having', therefore..7 aresistance of three ohms. Switches S' S2 S3 are so adjusted that S will close when 70.1 vo ts are applied to its coil, S will closewhen 116.8 volts are applied A to its coil, and S3 will close when 163.4 volts are applied toits coil. New if the circuit be completed through the resistance R and the armature of the motor A with the latter at rest an initial currentotI I "lll amperes will iiew through the circuit. lt is evident that the voltageapplied to the coils et' the switches will always be equal to the dit'- l'erence between the voltage of the circuit and the drop which occurs through the passage et' the current through the resistance. At the instant the circuit is closed practically the ifull applied voltage is absorbed by the resistance, so that at that instant there will be practically no voltage applied to the switch-coils. However, as the armature begins to revolve the current flowing through the circuit will be reduced owing to the counter electrometivc force set up in the armature, and as thc current is so reduced the drop through the resistance will also be reduced, and hence the voltage applied to the switch -coils will be increased. l/Vhcn the current has dropped to such a value that the drop through the resistance will be 139.9 volts, the'voltage applied to the switch-coils will be 210 -139.9,or TCM, and switch b' will therefore close. This will occur when the current has dropped to such a value that it will cause adrop of 139.9 through a resistance ot'three ohms. lfl ence the value ot' the current will be o or 46.6 amdrop through the remaining resistance will have reached 93.2 volts the difference between the voltage of the line and the said drop will be 116.8, or that required by switch S2. '.llhe value of such a current will hence be equal 2 S3 will close when the voltage applied to its to or 46.6 alnperes. Similarly switch coil is 163.4, and a similar calculation will show that this will occur when the current has again dropped to ll6.6 alnperes with one ohm in the circuit. lt will therefore be seen that switches S S3 are automatically caused to operate in a predetermined manner and in succession, such operation involving the successive short-cireuiting ot sections ot' resistance iu the motor-circuit ln the above eX- ample the current ol' 16.6 amperes is taken to represent the full-load current ot the given motor, while the initial current el seventy amper-es will represent a li tty-per-cent. overload on the same motor. Vlt is evident llroln the above that by the use ot' nl); invention the current is conlined to a safe value and the sections otl resistance cannot be cut out until in each case the current is reduced to a normal value, in this manner perfectly protecting the :notern An inspection ol Figs. 2, 3, and l 'will show that the above-described method o'l' cutting out or shortcircuitil'lg the starting resistance is used in each case illustrated, and a Further detailed description of this operation will hereinafter in consequence not be again resorted to. Referring again 191g. 2, let it be assumed that the meter is at rest and that the segments ol the controller are disengaged lronl the contactlingers. llow let it be assumed that the controller is moved so as to bring' the right-bruid segment into engagement with the contactlingers. Such operation having been el'l'eeted, it will be seen that current will pass from the positive main into the coil m ol the switch lvl, immediately closing the latter. Current will hence pass through this arm through the rcsistance lt, the switches rl' S S closing in succession, and so in three steps bringing the motor up te its Yfull speed. 'lhe counter electromotive torce generated by the lnotor exerts an ell'ect upon the switch N such as to tend to close saule and short-circuit the armature through the resistance it". Such action is, however, prevented by reason ol interdepcneence with the switch M through the medium of the locking-bar 0. New let the cont-rollin' be thrown over so as to bring the left-hand segments into engagement with the contact-lingers. Before such contact, however, takes place there will be a short period ot' time in which the said lingers will be entirely disconnected from the segments, and the current will hence be absolutely cut ol'lA from the motor and motor-circuit; Immediately this breaking el the circuit takes place the switch N, which is, as previously cescribed, constantly under tension by reason ot' the action ot counter electrolnotive lorce of the lnoter, closes, thus short-circuiting the m -ftor through the resistance l-tl and dissil'lating the energy se generated as heat in said resistance. lhe resistance lt" is so proportiolwd that the full cornucr elcctrclnotive force el the armature will produce a eurren t through it which will not exceed a li't'ty-l'ier-cent, overload on said motor, thus limiting the banling lOO Vfunction to a point which the motor will safely stand. The coil of the switch N, being' excited by the counter electromotive force of the armature, will continue to be excited as long' as the armature is in motion and will therefore tend to hold switch N closed until the armature has been practically brought to rest. ln the meantime the set or contacts in the lett of the contr ller may have been brought into contact with the lingers, thus reversinii` the connections to the armature A.

and closing; the circuit ol*l the coil of 'the switch M. lilo current, however, can flow from the line to the motor until the switch M is closed. The switch M will tend to close. but will be unable to do so until switch N opens, owing; to the action olf the locking-bar lt will be understood that the plunger of the switch N will be included in a -practically closed inagnetie circuit when the switch is closed, while the plunger of the switch lvl will be included in a magnetic circuit containing a relatively large air-gan, since this switch is open, and therefore the pull of the switch M in tending' to close cannot overcome the relatively heavy null of the switch N until the counter electroniotive 'force which excites the coil of the switch hl has practically dropped to Zero. Engagement of the contact-lingers with the segments now having' been e'liected, it will he seen that the current from the main will be reversed through the armature and that the switch-arm of the switch N will be disconnected from the contact n. Such action, it will hence be seen, will permit the switch-arm of switch itl to he actuated to close the motorcircuit, as beiore, as soon as the armature has been brought to rest. Upon such closing of said circuit the current `flows through the resistance lt, and Vthe switch-arms olf the magnetically-operated switches el Si S are successively actuated, as previously described, to lirst short-circuit successive fractions et' said resistance, and linally to short-circuit the whole resistance, thereby accelerating, as be- 'tore` the speed ot' the motor in three steps until it attains its l'ull or constant sneed.

An inspection of Fig. 3 will disclose the tact that the arrangement of my invention for application to a compound-wound motor is substantially identical with that for the shuntwound motor where each is adapted Vfor full or constant speed only.

in order to provide for various speeds, any one of which may be maintained indefinitely, it is only necessary to eliminate the automatic successive actuation of the n'iag'netically-operated switches to Si and provide means whereby the actuation ol said switches will be dependent upon the contact oi corresponding' segments of the controller with corresoondingl contact-lingers. Such an arrange ment is ilh'istrated in Fig. l, in which, :is will be noted from inspection ol said ligure, additional segments are provided on each side of the controller as well as additional contact lingers. Each one ot' said additional finger; is connected with one end ol one el? the switchonerz'tting coils, respectively, as shown, the other ends ol said coils beingW connected before. From the above arrangement it will hence be seen that the speed ol. the motor may be varied by bringing the various additional segments into contact with their respective contactlingers and pernfiittinig` them to remain in such contact as may be desired.

(lther modes otl applying the principle et my invention may be employed instead oi the one explained, change beingr made as regards i the mechanism herein disclosed, provided the means stated hy any one of the following; claims or the equivalent ot' such stated means be en'iployed.

l therefore particularly point out and disu tinctly claim as my invention 1. 'In a controlling' system tor motors, the combination et' means for reversing the motor, electrical means independent olf said reversing means tor automatically absorbing the energy of the moving; parts prior to such reversing, and means tor automatically accelerating the motor subsequently to such absorption.

2. in reversing mechanism Afor motors, the combinationof a motor-circuit, means for re versing the current through one ol the motor elements,y a conductor including a resistance short-eircuiting the armature, automaticallyoperating' means lor closing such shorten-cuiting conductoil and means lor opening' said motor-circuit concurrently with thc closing,l operation ot said short-circuiting' means.

3. ln reversingl mechanism for motors, the combii'iation ot a motor-circuit, means l'or rcversingl the current through one oi the motor elements, a conductor including` a resistaiice short-circuiting,` the armature, autoinaticallyoperatingl means for closing; such short-ci rcuiting' conductor, and means tor opening' said motor-circuit concurrently with the closing operation of said short-circuitii'ig means, such two closing means being arranged so as to cause the operation ol.l one to be dependent upon the operation ol the other.

s. in reversing mechanism l'or n'iotors, the combination otl a motorcircuit, means for rcversing the current through one oi the motor elei'nents, controlling means inchiding a inap;- netically-onerated switch t'or closing' the armature-circuit through a resistance, and means lor rendering such switch inoperative duringy the normal operation ol the motor, andarranged to become operative when the motor circuit is broken.

ln reversing mechaiiism `ler motors7 the cou'ibination oi a motor-circuit, means lor re versing the current through one o the motor elements, controlling means including iOf iii

and a,

' by said second switch; and means Yfor second magneticallyoperated switch arranged to open and close the motor-circuit, said two switches being' arranged to be interdependent so that the closure ot' either switch is pro hihited while the other is closed.

6. in reversing mechanism tor motors.l the combination et a nmtor-circui'i;, a magneticw ally-operated switch in said circuit Vfor epening and closing same, a conductor containing' a resistance and arranged to short-circuit thev motor-armature, and a magnetically-operated switch controlled by the motor and arranged t0 cut said conductor into or out et' its circuit, said two switches being interdependent wherem by the closure of either is prehibited while the other is closed.

7. In reversing n'iecl'ianism Afor motors, the combination ot' a moter-circuit, a magnetically-operated switch in said circuit for opening and closing the latter, a second magneti@ ally-operated switch controlled by the motor, a conductor containing' a resistance arranged to short-circuit the armature and controlled preventing the ciosu re of either of said switches While the other is closed.

8. ln reversing' mechanism for motors, the combination of a main motor-circuit, a magnetically-operated switch in said circuit for opening and closing same automatically; a secondary circuit including the armature, a resistance, and a magnctically-operated switch arranged to open and close said seconcarj,7 circuit, and controlled by said motor; said two switches being arranged so that the closure of either will prohibit the closure of the other.

9. in reversing mechanism for motors, the combination otl a motor-circuit, means for re- Versing the current through one of the motor Y elements, a resistance and means independent Y of said reversing means for short-circuiting the armature through such resistance when the current is shut ott from the said motor element, a bank of resistance in the motor-cir cuit, and means for short-circuiting said bank l l l l l i i l l i l t l l of resistance and fractions thereof, such latter means arranged to act concurrentbT Witi the reversing of the current.

10. ln reversing mechanism for motors, the combination of a motor-circuit, means for re rersing the current through one ot' the motor eiemen ts, a magneticalliv-operated switch con trolled by the meter for short-circuiting the armature through a resistance, a second magneticallyoperated switch controlled b v the main current-supply and arranged to open and close the motor-circuit, said two switches being interdependent and arranged so that the closure ot' either is prohibited while the other is open; a bank ot' resistance in themotor-circuit, a series ofmagnetica]ly-operated switches controlled by the current ciE the motor-circuit, such switches being arranged to operate automatically and successively 'to cut out l'ractions of said bank of resistance.

li. in reversing mechanism Vtor motors, the combination ot' a motorrircuit, means for reversing the current through one ot the motor elements, means independent of such reversing means or preventing such reversal prior to the time the moving element ol such motor is brought to rest, and means for autoniaticallj,T effecting such reversal after such state et rest is ctliected.

'12. ln reversing mechanism for motors, the combination ot' a motor-circuit, means for reversing the current through one of the motor elements, means Yfor absorbing' the energy generated by the moving motor element prior to such reversal, means independent oi such reversing means for preventing' such reversal prior to the time said moving` element is brought to rest, and means for automatically effecting such reversal after such state et' rest is effected.

Signed b v me this 7th day of lt/larch, 1904.

ARTHUR C. EASTNOUD. Attest:

A. ivinninn, G. lV. SAYWELL.

LTL 

